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><A
NAME="INDEX-LOCKING"
>52.4. Index Locking Considerations</A
></H1
><P
>   Index access methods must handle concurrent updates
   of the index by multiple processes.
   The core <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
> system obtains
   <TT
CLASS="LITERAL"
>AccessShareLock</TT
> on the index during an index scan, and
   <TT
CLASS="LITERAL"
>RowExclusiveLock</TT
> when updating the index (including plain
   <TT
CLASS="COMMAND"
>VACUUM</TT
>).  Since these lock types do not conflict, the access
   method is responsible for handling any fine-grained locking it might need.
   An exclusive lock on the index as a whole will be taken only during index
   creation, destruction, or <TT
CLASS="COMMAND"
>REINDEX</TT
>.
  </P
><P
>   Building an index type that supports concurrent updates usually requires
   extensive and subtle analysis of the required behavior.  For the b-tree
   and hash index types, you can read about the design decisions involved in
   <TT
CLASS="FILENAME"
>src/backend/access/nbtree/README</TT
> and
   <TT
CLASS="FILENAME"
>src/backend/access/hash/README</TT
>.
  </P
><P
>   Aside from the index's own internal consistency requirements, concurrent
   updates create issues about consistency between the parent table (the
   <I
CLASS="FIRSTTERM"
>heap</I
>) and the index.  Because
   <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
> separates accesses
   and updates of the heap from those of the index, there are windows in
   which the index might be inconsistent with the heap.  We handle this problem
   with the following rules:

    <P
></P
></P><UL
><LI
><P
>       A new heap entry is made before making its index entries.  (Therefore
       a concurrent index scan is likely to fail to see the heap entry.
       This is okay because the index reader would be uninterested in an
       uncommitted row anyway.  But see <A
HREF="index-unique-checks.html"
>Section 52.5</A
>.)
      </P
></LI
><LI
><P
>       When a heap entry is to be deleted (by <TT
CLASS="COMMAND"
>VACUUM</TT
>), all its
       index entries must be removed first.
      </P
></LI
><LI
><P
>       An index scan must maintain a pin
       on the index page holding the item last returned by
       <CODE
CLASS="FUNCTION"
>amgettuple</CODE
>, and <CODE
CLASS="FUNCTION"
>ambulkdelete</CODE
> cannot delete
       entries from pages that are pinned by other backends.  The need
       for this rule is explained below.
      </P
></LI
></UL
><P>

   Without the third rule, it is possible for an index reader to
   see an index entry just before it is removed by <TT
CLASS="COMMAND"
>VACUUM</TT
>, and
   then to arrive at the corresponding heap entry after that was removed by
   <TT
CLASS="COMMAND"
>VACUUM</TT
>.
   This creates no serious problems if that item
   number is still unused when the reader reaches it, since an empty
   item slot will be ignored by <CODE
CLASS="FUNCTION"
>heap_fetch()</CODE
>.  But what if a
   third backend has already re-used the item slot for something else?
   When using an MVCC-compliant snapshot, there is no problem because
   the new occupant of the slot is certain to be too new to pass the
   snapshot test.  However, with a non-MVCC-compliant snapshot (such as
   <TT
CLASS="LITERAL"
>SnapshotNow</TT
>), it would be possible to accept and return
   a row that does not in fact match the scan keys.  We could defend
   against this scenario by requiring the scan keys to be rechecked
   against the heap row in all cases, but that is too expensive.  Instead,
   we use a pin on an index page as a proxy to indicate that the reader
   might still be <SPAN
CLASS="QUOTE"
>"in flight"</SPAN
> from the index entry to the matching
   heap entry.  Making <CODE
CLASS="FUNCTION"
>ambulkdelete</CODE
> block on such a pin ensures
   that <TT
CLASS="COMMAND"
>VACUUM</TT
> cannot delete the heap entry before the reader
   is done with it.  This solution costs little in run time, and adds blocking
   overhead only in the rare cases where there actually is a conflict.
  </P
><P
>   This solution requires that index scans be <SPAN
CLASS="QUOTE"
>"synchronous"</SPAN
>: we have
   to fetch each heap tuple immediately after scanning the corresponding index
   entry.  This is expensive for a number of reasons.  An
   <SPAN
CLASS="QUOTE"
>"asynchronous"</SPAN
> scan in which we collect many TIDs from the index,
   and only visit the heap tuples sometime later, requires much less index
   locking overhead and can allow a more efficient heap access pattern.
   Per the above analysis, we must use the synchronous approach for
   non-MVCC-compliant snapshots, but an asynchronous scan is workable
   for a query using an MVCC snapshot.
  </P
><P
>   In an <CODE
CLASS="FUNCTION"
>amgetbitmap</CODE
> index scan, the access method does not
   keep an index pin on any of the returned tuples.  Therefore
   it is only safe to use such scans with MVCC-compliant snapshots.
  </P
><P
>   When the <TT
CLASS="STRUCTFIELD"
>ampredlocks</TT
> flag is not set, any scan using that
   index access method within a serializable transaction will acquire a
   non-blocking predicate lock on the full index.  This will generate a
   read-write conflict with the insert of any tuple into that index by a
   concurrent serializable transaction.  If certain patterns of read-write
   conflicts are detected among a set of concurrent serializable
   transactions, one of those transactions may be canceled to protect data
   integrity.  When the flag is set, it indicates that the index access
   method implements finer-grained predicate locking, which will tend to
   reduce the frequency of such transaction cancellations.
  </P
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